[Vipnet. Vipnet ukratko [pristup 10. travnja 2007]. Dostupno na http://www.vipnet.hr/cw/show?idc=8748781&idnews=291479]Search in Google Scholar
[T-Mobile. O T-Mobile HR. [pristup 10. travnja 2007]. Dostupno na http://www.t-mobile.hr/0/00-00-00-00-00.asp]Search in Google Scholar
[Mah E. GSM users to reach 2 billion mark in June. 2006. [pristup 10. travnja 2007]. Dostupno na http://www.digitimes.com/news/a20060614PR201.html]Search in Google Scholar
[World Health Organization (WHO). Electromagnetic Fields (300 Hz to 300 GHz). Geneva: World Health Organization; Environ Health Criteria 137; 1993.]Search in Google Scholar
[International Commisson on Non-Ionizing Radiation Protection (ICNIRP). Guidelines for limiting exposure to time-varying electric, magnetic, and electromagnetic fields (up to 300 GHz). Health Phys 1998;74:494-522.]Search in Google Scholar
[Bernhardt JH, Vogel E. Electromagnetic fields; biophysical interaction mechanisms. U: Matthes R, urednik. Proceedings of the third international non-ionizing radiation workshop of the International non-ionizing radiation workshop of the International Commision of Non-ionizing Radiation Protection. 22.-26. travnja 1996.; Munchen, Njemačka. International Commision on Non-Ionizing Radiation Protection; 1996. str. 230-44.]Search in Google Scholar
[Hilyard NC, Biggin HC, urednici. Fizika za biologe. 2. izd. Zagreb: Školska knjiga; 1989.]Search in Google Scholar
[Independent Expert Group on Mobile Phones (IEGMP). Mobile phones and health. [pristup 25. travnja 2007.] Dostupno na http://www.iegmp.org.uk]Search in Google Scholar
[Fröhlich H. Long-range coherence and energy storage in biological systems. Int J Quantum Chem 1968;2:641-9.10.1002/qua.560020505]Search in Google Scholar
[Pokorný J, Jelínek F, Trkal V, Šrobár F. Vibration in microtubules. U: Bersam F, urednik. Electricity and magnetism in biology and medicine; Bologna: Kluwer Academic/Plenum Publishers; 1999. str. 967-70.10.1007/978-1-4615-4867-6_232]Search in Google Scholar
[Brnjas-Kraljević J., urednik. Fizika za studente medicine - Struktura materije i dijagnostičke metode. Zagreb: Medicinska naklada; 2001.]Search in Google Scholar
[Hyland GJ. Physics and biology of mobile telephony. Lancet 2000;356:1833.10.1016/S0140-6736(00)03243-8]Search in Google Scholar
[Aitken RJ, Bennetts LE, Sawyer D, Wiklendt AM, King BV. Impact of radio frequency electromagnetic radiation on DNA integrity in the male germline. Int J Androl 2005;28:171-9.10.1111/j.1365-2605.2005.00531.x15910543]Search in Google Scholar
[Zirkin BR. Spermatogenesis: ist regulation by testosterone and FSH. Semin Cell Dev Biol 1998;9:412-22.10.1006/scdb.1998.02539813188]Search in Google Scholar
[McLachlan RI, O'Donnell L, Meachem SJ, Stanton PG, de Kretser DM, Pratis K, Robertson DM. Identification of specific sites of hormonal regulation in spermatogenesis in rats, monkeys, and man. Recent Prog Horm Res 2002;57:149-79.10.1210/rp.57.1.14912017541]Search in Google Scholar
[Russell LD, Griswold MD, urednici. The Sertoli Cell. Clearwater. Florida: Cache River Press; 1993.]Search in Google Scholar
[França LR, Ogawa T, Avarbock MR, Brinster RL, Russell LD. Germ cell genotype controls cell cycle during spermatogenesis in the rat. Biol Reprod 1998;59:1371-7.10.1095/biolreprod59.6.13719828180]Search in Google Scholar
[McLachlan RI, Wreford NG, O'Donnell L, de Kretser DM, Robertson DM. The endocrine regulation of spermatogenesis: independent roles for testosterone and FSH. J Endocrinol 1996;148:1-9.10.1677/joe.0.14800018568455]Search in Google Scholar
[Skinner MK. Cell-cell interactions in the testis. Endocr Rev 1991;12:45-77.10.1210/edrv-12-1-452026122]Search in Google Scholar
[Verhoeven G, Hoeben E, De Gendzt K. Peritubular cell-Sertoli cell interactions: factors involved in PmodS activity. Andrologia 2000;32:42-5.]Search in Google Scholar
[Smith AG. Embryo-derived stem cells: of mice and men. Annu Rev Cell Dev Biol 2001;17:435-62.10.1146/annurev.cellbio.17.1.43511687496]Search in Google Scholar
[Fujioka H, Fujisawa M, Tatsumi N, Kanzaki M, Okuda Y, Okada H, Arakawa S, Kamidono S. Sertoli cells inhibited apoptosis of pachytene spermatocytes and round spermatids. Endocr Res 2001;27:75-90.10.1081/ERC-100107171]Search in Google Scholar
[Yan W, Souminen J, Toppari J. Stem cell factor protects germ cells from apoptosis in vitro. J Cell Sci 2000;113:161-8.10.1242/jcs.113.1.161]Search in Google Scholar
[Pentikainene V, Erkkila K, Suomalainene L, Parvinen M, Dunkel L. Estradiol acts as a germ cell survival factor in the human testis in vitro. J Clin Endocrinol Metab 2000;85:2057-67.]Search in Google Scholar
[Parks JE, Lee DR, Huang S, Kaproth MT. Prospects for spermatogenesis in vitro. Theriogenology 2003;59:73-86.10.1016/S0093-691X(02)01275-X]Search in Google Scholar
[De Rooij DG. Stem cells in the testis. Int J Exp Pathol 1998;79:67-80.10.1046/j.1365-2613.1998.00057.x]Search in Google Scholar
[Trosic I, Busljeta I, Modlic B. Investigation of the genotoxic effect of microwave irradiation in rat bone marrow cells: in vivo exposure. Mutagenesis 2004;19:361-4.10.1093/mutage/geh042]Search in Google Scholar
[Dasdag S, Zulkuf Akdag M, Ayyildiz O, Demirtas OC, Yayla M, Sert C. Do cellular phones alter blood parameters and birth weight of rats? Electromagn Biol Med 2000;19:107-13.10.1081/JBC-100100301]Search in Google Scholar
[Hyland GJ. Non-thermal bioeffects induced by low-intensity microwave irradiation of living systems. Eng Sci Educ J 1998;7:261-9.10.1049/esej:19980606]Search in Google Scholar
[Jensh RP. Behavioral teratologic studies using microwave radiation: Is there an increased risk from exposure to cellular phones and microwave ovens? Reprod Toxicol 1997;11:601-11.10.1016/S0890-6238(97)89179-4]Search in Google Scholar
[Bornhausen M, Scheingraber H. Prenatal exposure to 900 MHz, cell-phone electromagnetic fields had no effect on operant-behavior performances of adults rats. Bioelectromagnetics 2000;21:566-74.10.1002/1521-186X(200012)21:8<566::AID-BEM2>3.0.CO;2-G]Search in Google Scholar
[Vijayalaxami, Frei MR, Dusch SJ, Guel V, Meltz ML, Jauchem JR. Frequency of micronuclei in the peripheral blood and bone marrow of cancer-prone mice chronically exposed to 2450 MHz radiofrequency radiation. Radiat Res 1997;147:495-500.10.2307/3579508]Search in Google Scholar
[Vijayalaxami, Frei MR, Dusch SJ, Guel V, Meltz ML, Jauchem JR. Erratum in "Correction of an Error in Calculation in the Article "Frequency of micronuclei in the peripheral blood and bone marrow of cancer-prone mice chronically exposed to 2450 MHz radiofrequency radiation. (Radiat. Res. 147, 495-500, 1997). Radiat Res 1998;149: 408.]Search in Google Scholar
[Pavicic I,. Trosic I. Influence of 864 MHz electromagnetic field on growth kinetics of established cell line. Biologia 2006;61:272-9.10.2478/s11756-006-0058-0]Search in Google Scholar
[Zotti-Martelli L, Peccatori M, Scarpato R, Migliore L. Induction of micronuclei in human lymphocytes exposed in vitro to microwave radiation. Mutat Res 2000;472:51-8.10.1016/S1383-5718(00)00112-1]Search in Google Scholar
[Maes A, Collier M, Verschaeve L. Cytogenetic effects of 900 MHz (GSM) microwaves on human lymphocytes. Bioelectromagnetics 2001;22:91-6.10.1002/1521-186X(200102)22:2<91::AID-BEM1011>3.0.CO;2-W]Search in Google Scholar
[Stagg RB, Thomas WJ, Jones RA, Adey WR. DNA synthesis and cell proliferation in C6 glioma and primary glial cells exposed to a 836.55 MHz modulated radiofrequency field. Bioelectromagnetics 1997;18:230-6.10.1002/(SICI)1521-186X(1997)18:3<230::AID-BEM5>3.0.CO;2-3]Search in Google Scholar
[Jelínek F, Pokorný J. Microtubules in biological cells as circular waveguides and resonators. Electro Magnetobiology 2001;20:75-80.10.1081/JBC-100103161]Search in Google Scholar
[Van Zandt LL, Davis ME. Theory of the anomalous resonant absorption of DNA at microwave frequencies. J Biomol Struct Dyn 1986;3:1045-53.10.1080/07391102.1986.10508481]Search in Google Scholar
[Ortner MJ, Galvin MJ, Irwin RD. The effect of 2450-MHz Microwave radiation during microtubular polymerization in vitro. Radiat Res 1983;93:353-63.10.2307/3575991]Search in Google Scholar
[Sarkar S, Ali S, Behari J. Effect of low-power microwave on the mouse genome: a direct DNA analysis. Mutat Res 1994;320:141-7.10.1016/0165-1218(94)90066-3]Search in Google Scholar
[Lokhmatova SA. The effect of low-intensity prolonged impulse electromagnetic irradiation in the UHF range on the testes and the appendages of the testis in rats. Radiat Biol Radioecol 1994;34:279-85.]Search in Google Scholar
[Afromeev VI, Tkachenko VN. Change in the percent of lactate dehydrogenase isoenzyme level in testes of animals exposed to superhigh frequency radiation. Biofizika 1999;44:931-2.]Search in Google Scholar
[Akdag MZ, Çelik MS, Ketani A, Nergiz Y, Deniz M, Dasdag S. Effect of chronic low-intensity microwave radiation on sperm count, sperm morphology, and testicular and epididymal tissues of rats. Electro- and Magnetobiology 1999;18:133-45.]Search in Google Scholar
[Weyandt TB, Schrader SM, Turner TW, Simon SD. Semen analysis of military personnel associated with military duty assignments. Reprod Toxicol 1996;10:521-8.10.1016/S0890-6238(96)00139-6]Search in Google Scholar
[de Seze R, Fabbro-Peray P, Miro L. GSM Radiocellular telephones do not disturb the secretion of antepituitary hormones in humans. Bioelectromagnetics 1998;19:271-8.10.1002/(SICI)1521-186X(1998)19:5<271::AID-BEM1>3.0.CO;2-Z]Search in Google Scholar
[Dasdag S, Zulkuf Akdag M, Aksen F, Yilmaz F, Bashan M, Mutlu Dasdag M, Salih Celik M. Whole body exposure of rats to microwaves emitted from a cell phone does not affect the testes. Bioelectromagnetics 2003;24:182-8.10.1002/bem.10083]Search in Google Scholar
[Saunders RD, Kowalczuk CI. Effects of 2.45 GHz microwave radiation and heat on mouse spermatogenic epithelium. Int J Radiat Biol 1981;40:623-32.]Search in Google Scholar
[Johnson L, Lebovitz RM and Samson WK. Germ cell degeneration in normal and microwave-irradiated rats: potential sperm production rates at different developmental steps in spermatogenesis. Anat Rec 1984;209-501-7.10.1002/ar.1092090410]Search in Google Scholar
[Haidt SJ, McTighe AH. The Effect of Chronic Low-Level Microwave Radiation on the Testicles of Mice. Microwave Symp Dig G-MTT Int 1973;73:324-5.]Search in Google Scholar
[Varma MM, Traboulary EE. Biological effects of microwave radiation on the testes of Swiss mice. Experientia 1975;31:301-2.10.1007/BF01922549]Search in Google Scholar
[Cairnie AB, Harding RK. Cytological studies in mouse testis irradiated with 2.45 GHz continuous wave microwaves. Radiat Res 1981;87:100-8.10.2307/3575544]Search in Google Scholar
[McRee DI, Thoxton JP, Parkhurst CR. Reproduction in male Japanese Quail exposed to microwave radiation during embryogeny. Radiat Res 1983;96:51-8.10.2307/3576163]Search in Google Scholar
[Lebovitz RM, Johnson L. Acute, whole body microwave exposure and testicular function of rats. Bioelectromagnetics 1987;8:37-43.10.1002/bem.2250080106]Search in Google Scholar
[Cleary SF. Reproductive toxic effects of electromagnetic radiation. U: Witorsch RJ, urednik. Reproductive Toxicology. 2. izd. New York: Raven Press; 1995. p. 263-80.]Search in Google Scholar
[Dasdag S, Ketani MA, Akdag MZ, Ersay AR, Sari I, Demirtas OC, Celik MS. Whole-body microwave exposure emitted by cellular phones and testicular function of rats. Urol Res 1999;27:219-23.10.1007/s002400050113]Search in Google Scholar
[Ikeda M, Kodama H, Fukuda J, Shimizu Y, Murata M, Kumagai J, Tanaka K. Role of radical oxygen species in rat testicular cell apoptosis by heat stress. Biol Reprod 1999;61:393-9.10.1095/biolreprod61.2.393]Search in Google Scholar
[Sun JG, Jurisicova A, Casper RF. Detection of deoxyribonucleic acid fragmentation in human sperm: correlation with fertilization in vitro. Biol Reprod 1997;56:602-7.10.1095/biolreprod56.3.602]Search in Google Scholar
[Giwercman A, Richthoff J, Hjøllund H, Bonde JP, Jepson K, Frohm B, Spano M. Correlation between sperm motility and sperm chromatin structure assay parameters. Fertil Steril 2003;80:1404-12.10.1016/S0015-0282(03)02212-X]Search in Google Scholar
[Gavella M, Lipovac V. Antioxidative efect of melatonin on human spermatozoa. Arch Androl 2000;44:23-7.10.1080/01485010026237110690761]Search in Google Scholar
[Trošić I, Bušljeta I, Pavičić I, Zaninovic Lj, Milković-Kraus S. Urinary 6-sulfatoxymelatonin excretion in rats after microwave irradiation. U: Kostarakis P, urednik. Proceedings of the 4th International Workshop Ob Biological Effects of Electromagnetic Fields; 16.-20. listopada 2006.; Kreta, Grčka. str. 1220-4.]Search in Google Scholar
[Valladares L, Moraga P, Ronco AM, Pino AM, Ahumada A. A direct effect of melatonin on testicular steroidogenesis. J Steroid Biochem 1990;36(Suppl.):87.]Search in Google Scholar
[Jackson FL, Heindel JJ, Preslock JP, Berkowitz AS. Alterations in hypothalamic content of luteinizing hormone-releasing hormone associated with pineal mediated testicular regression in the golden hamster. Biol Reprod 1984;31:436-45.10.1095/biolreprod31.3.4366435693]Search in Google Scholar
[Kus I, Akpolat N, Özen OA, Songur A, Kavakli A, Sarsilmaz N. Effects of melatonin on Leydig cells in pinealectomized rat: an immunohistochemical study. Acta Histochem 2002;104:93-7.10.1078/0065-1281-0061811993856]Search in Google Scholar
[Burch JB, Reif JS, Noonan CW, Ichinose T, Bachand AM, Koleber TL, Yost MG. Melatonin metabolite excretion among cellular telephone users. Int J Radiat Biol 2002;78:1029-36.10.1080/0955300021016656112456290]Search in Google Scholar
[Jarupat S, Kawabata A, Tokura H, Borkiewicz A. Effects of the 1900 MHz electromagnetic field emitted from cellular phone on nocturnal melatonin secretion. J Physiol Anthropol 2003;22:61-3.10.2114/jpa.22.6112672984]Search in Google Scholar
[Ribeiro EP, Rhoden EL, Horn MM, Rhoden C, Lima LP, Toniolo L. Effects of subchronic exposure to radio frequency from a conventional cellular telephone on testicular function in adult rats: J Urol 2007;177:395-9.10.1016/j.juro.2006.08.08317162098]Search in Google Scholar
[Ozguner M, Koyu A, Cesur G, Ural M, Ozguner F, Gokcimen A, Delibas N. Biological and morphological effects on the reproductive organ of rats after exposure to electromagnetic field. Saudi Med J 2005;26:405-10.]Search in Google Scholar
[Forgács Z, Somosy Z, Kubinyi G, Bakos J, Hudák A, Surján A, Thuróczy G. Effect of whole-body 1800 MHz GSM-like microwave exposure on testicular steroidogenesis and histology in mice. Reprod Toxicol 2006;22:111-7.10.1016/j.reprotox.2005.12.00316434166]Search in Google Scholar
[Fejes I, Zavaczki Z, Szollosi J, Koloszar S, Daru J, Kovacs L, Pa LA. Is there a relationship between cell phone use and semen quality? Arch Androl 2005;51:385-93.10.1080/01485019092452016087567]Search in Google Scholar
[Carlsen E, Giwercman A, Keiding N, Skakkebaek N. Evidence for decreasing quality of semen during past 50 years. Br Med J 1992;305:609-13.10.1136/bmj.305.6854.60918833541393072]Search in Google Scholar
[Auger J, Kunstmann JM, Czyglik F, Jouannet P. Decline in semen quality of fertile men during last 20 years. N Engl J Med 1995;332:281-5.10.1056/NEJM1995020233205017816062]Search in Google Scholar
[Environment and Climate Research Programme. European Workshop on the Impact of Endocrine Disrupters on Human Health and Wildlife. 2.-4. prosinca 1996. Weybridge, U.K. Report Of Proceedings EUR 17549. European Commission 1996.]Search in Google Scholar
[Auger J, Jouannet P. Evidence for regional differences of semen quality among fertile French men. Hum Reprod 1997;12:740-5.10.1093/humrep/12.4.740]Search in Google Scholar
[Swan SH, Elkin EP, Fenster L. Have sperm density declined? A reanalysis of global trend data. Environ Health Persp 1997;105:1228-32.10.1289/ehp.971051228]Search in Google Scholar
[Pajarinen J, Laippala P, Penttila A, Karhunen PJ. Incidence of disorders of spermatogenesis in middle aged Finnish men, 1981-91: two necropsies series. Br Med J 1997;314:13-8.10.1136/bmj.314.7073.13]Search in Google Scholar
[Nieschlag E, Behre HM. Andrology: male reproductive health and dysfunction. Berlin, Heidelberg, New York, Barcelona, Hong Kong, London, Milan, Paris, Singapore, Tokyo: Springer-Verlag. 2000.]Search in Google Scholar
[World Health Organization (WHO). WHO manual for the standardized investigation, diagnosis and management of the infertile male. Cambridge (UK): Cambridge University Press; 2000.]Search in Google Scholar
[Alberts B, Bray D, Lewis J, Raff M, Roberts K, Watson JD. Molecular Biology of the Cell. New York & London: Garland Publishing; 1994.]Search in Google Scholar
[Tachibana M, Terada Y, Murakawa H, Murakami T, Yaegashi N, Okamura K. Dynamic changes in the cytoskeleton during human spermiogenesis. Fertil Steril 2005;84:1241-8.10.1016/j.fertnstert.2005.06.015]Search in Google Scholar
[Vogl AW. Distribution and function of organized concentrations of actin filaments in mammalian spermatogenic cells and Sertoli cells. Int Rev Cytol 1989;119:1-56.]Search in Google Scholar
[Russel LD, Weber JE, Vogl AW. Characterization of filaments within the subacrosomal space of rat spermatids during spermiogenesis. Tissue Cell 1986;18:887-98.10.1016/0040-8166(86)90045-5]Search in Google Scholar
[Oko R. Occurrence and formation of cytoskeletal proteins in mammalian spermatozoa. Andrologia 1998;30:193-206.10.1111/j.1439-0272.1998.tb01161.x]Search in Google Scholar
[Breitbart H, Cohen G, Rubinstein S. Role of actin cytoskeleton in mammalian sperm capacitation and the acrosome reaction. Biol Reprod 2005;129:263-8.10.1530/rep.1.00269]Search in Google Scholar
[Welch JA, O'Rand MG. Identification and distribution of actin in spermatogenic cells and spermatozoa of the rabbit. Dev Biol 1985;109:411-7.10.1016/0012-1606(85)90467-1]Search in Google Scholar